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2 | pj | 1 | /* |
2 | * Project: S.Ha.R.K. |
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3 | * |
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4 | * Coordinators: |
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5 | * Giorgio Buttazzo <giorgio@sssup.it> |
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6 | * Paolo Gai <pj@gandalf.sssup.it> |
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7 | * |
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8 | * Authors : |
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9 | * Paolo Gai <pj@gandalf.sssup.it> |
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10 | * Massimiliano Giorgi <massy@gandalf.sssup.it> |
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11 | * Luca Abeni <luca@gandalf.sssup.it> |
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12 | * (see the web pages for full authors list) |
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13 | * |
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14 | * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy) |
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15 | * |
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16 | * http://www.sssup.it |
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17 | * http://retis.sssup.it |
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18 | * http://shark.sssup.it |
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19 | */ |
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20 | |||
21 | /** |
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22 | ------------ |
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918 | pj | 23 | CVS : $Id: ss.c,v 1.9 2005-01-08 14:44:48 pj Exp $ |
2 | pj | 24 | |
25 | File: $File$ |
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918 | pj | 26 | Revision: $Revision: 1.9 $ |
27 | Last update: $Date: 2005-01-08 14:44:48 $ |
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2 | pj | 28 | ------------ |
29 | |||
30 | This file contains the aperiodic Sporadic Server (SS). |
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31 | |||
32 | Note: in the following, server capacity and server budget are used as |
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33 | synonyms. |
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34 | |||
35 | When scheduling in background the flags field has the SS_BACKGROUND bit set |
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36 | |||
37 | When scheduling a task because it is pointed by another task via shadows, |
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38 | the task have to be extracted from the wait queue or the master level. To |
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39 | check this we have to look at the activated field; it is != NIL if a task |
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40 | is inserted into the master level. Only a task at a time can be inserted |
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41 | into the master level. |
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42 | |||
43 | The capacity of the server must be updated |
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44 | - when scheduling a task normally |
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45 | - when scheduling a task because it is pointed by a shadow |
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46 | but not when scheduling in background. |
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47 | |||
48 | When a task is extracted from the system no scheduling has to be done |
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49 | until the task reenter into the system. To implement this, when a task |
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50 | is extracted we block the background scheduling (the scheduling with the |
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51 | master level is already blocked because the activated field is not |
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52 | reset to NIL) using the SS_BACKGROUNDBLOCK bit. |
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53 | |||
54 | nact[p] is -1 if the task set the activations to SKIP, >= 0 otherwise |
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55 | |||
56 | In contrast to classic SS scheme, the activation happens when |
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57 | a task does a create request while there is positive budget (instead to |
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58 | becomes active when there is a running task with priority higger then or |
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59 | equal to the server). |
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60 | So the replenish time is estabished on task arrival time. Replenish time |
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61 | is calculated as usual: activation time + server period. |
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62 | When the server ends its budget, becomes not active until a replenishment |
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63 | occurs. |
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64 | |||
65 | When a task ends its computation and there are no tasks to schedule or, |
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66 | again, the server budget ends, a replenish amount is posted so that, when |
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67 | replenish time fires, the server budget will be updated. Replenish |
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68 | amount is determined depending on how much time tasks have ran. |
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69 | Replenish amount does't takes into account periods during witch tasks |
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70 | handled by SS are preempted. |
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71 | |||
72 | There are two models used to handle a task is running into a critic section |
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73 | (owning a mutex): "nostop" model and "stop" model. |
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74 | Using the "nostop" model, a task that runs into a critic section is not |
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75 | stopped when server ends its budget. This is done so higger priority tasks |
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76 | waiting for mutex are not blocked for so much time to replenish time occurs. |
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77 | When this happens the server capacity becomes negative and the replenish |
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78 | amount takes into account the negative budget part. |
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79 | With "stop" model running task is always suspended when server budget ends. |
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80 | If suspended task owns a mutex shared with higger priority task, the last |
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81 | one cannot runs until the mutex will be released. Higger priority task |
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82 | must waits at least upto next replenish time, when server budget will be |
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83 | refulled and suspended task runs again. |
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84 | |||
85 | Using "nostop" model, SS can uses more bandwidth respect to assigned |
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86 | capacity (due to negative budgets). So, calculating the guarantee, the |
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87 | longer critic section of all tasks handled by SS must be considered. |
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88 | |||
89 | SS can be used either with EDF or RM master level. |
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90 | |||
91 | Read SS.h for further details. |
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92 | |||
93 | **/ |
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94 | |||
95 | /* |
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96 | * Copyright (C) 2000 Paolo Gai |
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97 | * |
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98 | * This program is free software; you can redistribute it and/or modify |
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99 | * it under the terms of the GNU General Public License as published by |
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100 | * the Free Software Foundation; either version 2 of the License, or |
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101 | * (at your option) any later version. |
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102 | * |
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103 | * This program is distributed in the hope that it will be useful, |
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104 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
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105 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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106 | * GNU General Public License for more details. |
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107 | * |
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108 | * You should have received a copy of the GNU General Public License |
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109 | * along with this program; if not, write to the Free Software |
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110 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA |
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111 | * |
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112 | */ |
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113 | |||
114 | |||
115 | #include <stdlib.h> |
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116 | #include <modules/ss.h> |
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117 | #include <ll/stdio.h> |
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118 | #include <ll/string.h> |
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119 | |||
120 | #include <ll/sys/ll/event.h> |
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121 | |||
122 | #include <kernel/const.h> |
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123 | #include <kernel/model.h> |
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124 | #include <kernel/model.h> |
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125 | #include <kernel/descr.h> |
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126 | #include <kernel/var.h> |
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127 | #include <kernel/func.h> |
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128 | |||
353 | giacomo | 129 | #include <tracer.h> |
130 | |||
2 | pj | 131 | /* For debugging purpose */ |
132 | //#define DEBUG 1 |
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133 | |||
134 | /*+ Status used in the level +*/ |
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135 | #define SS_WAIT APER_STATUS_BASE /*+ waiting the service +*/ |
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136 | |||
137 | /*+ Some useful macros +*/ |
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138 | #define BACKGROUND_ON (lev->flags & SS_BACKGROUND) |
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139 | |||
140 | extern struct event *firstevent; |
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141 | |||
142 | /*+ the level redefinition for the Sporadic Server +*/ |
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143 | typedef struct { |
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144 | level_des l; /*+ the standard level descriptor +*/ |
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145 | |||
146 | /* The wcet are stored in the task descriptor's priority |
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147 | field, so no other fields are needed */ |
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148 | |||
149 | int nact[MAX_PROC]; /*+ number of pending activations +*/ |
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150 | |||
151 | struct timespec lastdline; /*+ the last deeadline assigned to |
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152 | a SS task +*/ |
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153 | |||
154 | int Cs; /*+ server capacity +*/ |
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155 | int availCs; /*+ server avail time +*/ |
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156 | int period; /*+ Server period +*/ |
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157 | |||
158 | bandwidth_t U; /*+ the used bandwidth by the server +*/ |
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159 | |||
29 | pj | 160 | IQUEUE wait; /*+ the wait queue of the SS +*/ |
2 | pj | 161 | PID activated; /*+ the task inserted in another queue +*/ |
162 | |||
163 | int flags; /*+ the init flags... +*/ |
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164 | |||
165 | |||
166 | LEVEL scheduling_level; |
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167 | |||
168 | int replenishment[SS_MAX_REPLENISH]; /*+ contains replenish amounts +*/ |
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169 | int rfirst,rlast; /*+ first and last valid replenish |
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170 | in replenish queue +*/ |
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171 | int rcount; /*+ queued replenishments +*/ |
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172 | |||
173 | int replenish_amount; /*+ partial replenishments before post +*/ |
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174 | ss_status server_active; /*+ Is server active? +*/ |
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175 | |||
176 | } SS_level_des; |
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177 | |||
178 | /*+ function prototypes +*/ |
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38 | pj | 179 | void SS_internal_status(LEVEL l); |
2 | pj | 180 | static void SS_replenish_timer(void *arg); |
181 | /*-------------------------------------------------------------------*/ |
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182 | |||
183 | /*** Utility functions ***/ |
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184 | |||
185 | |||
186 | /* These are for dinamic queue. **Disabled** */ |
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187 | #if 0 |
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188 | /* These routines are not tested, be carefull */ |
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189 | |||
190 | /*+ SS local memory allocator. |
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191 | Can be used for performance optimization. |
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192 | The interface is the same of kern_alloc() +*/ |
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193 | void inline * ss_alloc(DWORD b) { |
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194 | /* Now simply wraps to standard kernel alloc */ |
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195 | return kern_alloc(b); |
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196 | } |
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197 | |||
198 | void ssq_inslast(LEVEL l, replenishq *elem) { |
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199 | |||
200 | SS_level_des *lev = (SS_level_des *) level_table[l]; |
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201 | |||
202 | if(lev->rqueue_last == NULL) { /* empty queue */ |
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203 | lev->rqueue_last=elem; |
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204 | lev->rqueue_first=elem; |
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205 | return; |
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206 | } |
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207 | elem->next = NULL; |
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208 | lev->rqueue_last->next = elem; |
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209 | lev->rqueue_last = elem; |
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210 | } |
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211 | |||
212 | replenishq *ssq_getfirst(LEVEL l) { |
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213 | |||
214 | SS_level_des *lev = (SS_level_des *) level_table[l]; |
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215 | replenishq *tmp; |
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216 | |||
217 | if(lev->rqueue_first == NULL) { /* empty queue */ |
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218 | return 0; |
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219 | } |
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220 | tmp = lev->rqueue_first; |
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221 | lev->rqueue_first = tmp->next; |
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222 | if(lev->rqueue_first == NULL) { /* no more elements */ |
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223 | lev->rqueue_last = NULL; |
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224 | } |
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225 | tmp->next = NULL; /* to remove dangling pointer */ |
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226 | return tmp; |
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227 | } |
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228 | #endif |
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229 | |||
230 | /* For queue implemented with array. |
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231 | SS_MAX_REPLENISH array size assumed */ |
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232 | |||
233 | /*+ Insert an element at tail of replenish queue |
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234 | LEVEL l module level |
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235 | int amount element to insert |
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236 | |||
237 | RETURNS: |
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238 | |||
239 | NIL no more space for insertion +*/ |
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240 | static inline int ssq_inslast (LEVEL l, int amount) { |
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241 | |||
242 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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243 | |||
244 | #ifdef DEBUG |
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245 | kern_printf("insl "); |
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246 | #endif |
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247 | |||
248 | if (lev->rcount == SS_MAX_REPLENISH) { |
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249 | return NIL; /* no more space in the queue */ |
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250 | } |
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251 | |||
252 | lev->replenishment[lev->rlast++] = amount; |
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253 | lev->rlast %= SS_MAX_REPLENISH; |
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254 | lev->rcount++; |
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255 | #ifdef DEBUG |
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256 | printf_xy(0,0,WHITE,"%d",lev->rcount); |
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257 | #endif |
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258 | |||
259 | return 0; |
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260 | } |
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261 | |||
262 | /*+ Get first element from replenish queue |
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263 | LEVEL l module level |
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264 | |||
265 | RETURS: |
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266 | extracted element |
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267 | NIL on empty queue +*/ |
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268 | static inline int ssq_getfirst (LEVEL l) { |
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269 | |||
270 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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271 | int tmp; |
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272 | |||
273 | #ifdef DEBUG |
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274 | kern_printf("getf "); |
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275 | #endif |
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276 | |||
277 | if (lev->rcount == 0) { |
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278 | return NIL; /* empty queue */ |
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279 | } |
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280 | tmp = lev->replenishment[lev->rfirst++]; |
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281 | lev->rfirst %= SS_MAX_REPLENISH; |
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282 | lev->rcount--; |
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283 | #ifdef DEBUG |
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284 | printf_xy(0,0,WHITE,"%d",lev->rcount); |
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285 | #endif |
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286 | return tmp; |
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287 | } |
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288 | |||
289 | /*+ Enquire for empty queue |
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290 | LEVEL l module level |
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291 | |||
292 | RETURS: |
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293 | |||
294 | 1 queue is empty +*/ |
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295 | static inline int ssq_isempty (LEVEL l) { |
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296 | |||
297 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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298 | |||
299 | return !(lev->rcount); |
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300 | |||
301 | // if(lev->rcount == 0) |
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302 | // return 1; |
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303 | // return 0; |
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304 | } |
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305 | |||
306 | /*+ Set replenish amount for budget used during task execution |
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307 | LEVEL l module level */ |
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308 | static inline void SS_set_ra(LEVEL l) |
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309 | { |
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310 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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311 | |||
312 | /* replenish must be set when the server is still active */ |
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313 | if(lev->server_active == SS_SERVER_ACTIVE) { |
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314 | lev->server_active = SS_SERVER_NOTACTIVE; |
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315 | if(ssq_inslast(l, lev->replenish_amount) == NIL) { |
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316 | kern_printf("SS: no more space to post replenishment\n"); |
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317 | kern_printf("You should recompile setting higher SS_MAX_REPLENISH into include/modules/ss.h\n"); |
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38 | pj | 318 | SS_internal_status(l); |
14 | pj | 319 | kern_raise(XINVALID_SS_REPLENISH,exec_shadow); |
2 | pj | 320 | #ifdef DEBUG |
321 | exit(-1); |
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322 | #endif |
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323 | } |
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324 | lev->replenish_amount = 0; |
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325 | } |
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326 | else { |
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327 | kern_printf("SS not active when posting R.A.\n"); |
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38 | pj | 328 | SS_internal_status(l); |
14 | pj | 329 | kern_raise(XINVALID_SS_REPLENISH,exec_shadow); |
2 | pj | 330 | #ifdef DEBUG |
331 | exit(-1); |
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332 | #endif |
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333 | } |
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334 | } |
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335 | /* ------------------------------------------------------------------ */ |
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336 | |||
337 | /* This static function activates the task pointed by lev->activated) */ |
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338 | static inline void SS_activation(SS_level_des *lev) |
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339 | { |
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340 | /* those two defines are for readableness */ |
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341 | PID p; |
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342 | LEVEL m; |
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343 | |||
344 | JOB_TASK_MODEL j; /* the guest model */ |
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345 | // struct timespec ty; |
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346 | |||
347 | #ifdef DEBUG |
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348 | kern_printf("SS_acti "); |
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349 | #endif |
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350 | |||
351 | p = lev->activated; |
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352 | m = lev->scheduling_level; |
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353 | |||
354 | #if 0 |
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355 | /* if server is active, replenish time already set */ |
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356 | if (lev->server_active == SS_SERVER_NOTACTIVE) { |
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357 | lev->server_active = SS_SERVER_ACTIVE; |
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358 | /* set replenish time */ |
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359 | TIMESPEC_ASSIGN(&ty, &proc_table[p].request_time); |
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360 | ADDUSEC2TIMESPEC(lev->period, &ty); |
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361 | TIMESPEC_ASSIGN(&lev->lastdline, &ty); |
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362 | #ifdef DEBUG |
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363 | kern_printf("RT:%d.%d ",ty.tv_sec,ty.tv_nsec); |
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364 | #endif |
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365 | kern_event_post(&ty, SS_replenish_timer, (void *) l); |
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366 | } |
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367 | #endif |
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368 | |||
369 | job_task_default_model(j,lev->lastdline); |
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370 | job_task_def_period(j,lev->period); |
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38 | pj | 371 | level_table[m]->private_insert(m,p,(TASK_MODEL *)&j); |
2 | pj | 372 | |
373 | #ifdef DEBUG |
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374 | kern_printf("PID:%p lastdl:%d.%d ",p,lev->lastdline.tv_sec,lev->lastdline.tv_nsec); |
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375 | #endif |
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376 | } |
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377 | |||
378 | /*+ |
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379 | Before call capacity_timer, update server capacity |
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380 | and replenish amount. |
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381 | +*/ |
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382 | static void SS_capacity_timer(void *arg) { |
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383 | |||
384 | LEVEL l = (LEVEL)arg; |
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385 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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386 | struct timespec ty; |
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387 | int tx; |
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388 | |||
389 | #ifdef DEBUG |
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390 | kern_printf("SS_captim "); |
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391 | #endif |
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392 | |||
393 | /* set replenish amount */ |
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394 | /* task was running while budget ends */ |
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395 | lev->server_active = SS_SERVER_NOTACTIVE; |
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396 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
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397 | tx = TIMESPEC2USEC(&ty); |
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398 | lev->availCs -= tx; |
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399 | if(ssq_inslast(l, tx+lev->replenish_amount) == NIL) { |
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400 | kern_printf("SS: no more space to post replenishment\n"); |
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401 | kern_printf(" You should recompile setting higher SS_MAX_REPLENISH into include/modules/ss.h\n"); |
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38 | pj | 402 | SS_internal_status(l); |
14 | pj | 403 | kern_raise(XINVALID_SS_REPLENISH,exec_shadow); |
2 | pj | 404 | #ifdef DEBUG |
405 | exit(-1); |
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406 | #endif |
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407 | } |
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408 | lev->replenish_amount = 0; |
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409 | capacity_timer(NULL); |
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410 | } |
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411 | |||
412 | static void SS_replenish_timer(void *arg) |
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413 | { |
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414 | LEVEL l = (LEVEL)arg; |
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415 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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416 | struct timespec ty; |
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417 | int amount; |
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418 | |||
419 | #ifdef DEBUG |
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420 | kern_printf("SS_reptim "); |
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421 | #endif |
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422 | |||
423 | /* availCs may be <0 because a task executed via a shadow for many time |
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424 | lev->activated == NIL only if the prec task was finished and there |
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425 | was not any other task to be put in the ready queue |
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426 | ... we are now activating the next task */ |
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427 | if ((amount = ssq_getfirst(l)) != NIL) { |
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428 | lev->availCs += amount; |
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429 | #ifdef DEBUG |
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430 | kern_printf("AvaCs=%d ",lev->availCs); |
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431 | #endif |
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432 | if (lev->availCs > lev->Cs) { |
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433 | /* This should not be possible. I do so for robustness. */ |
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434 | lev->availCs = lev->Cs; |
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435 | #ifdef DEBUG |
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436 | kern_printf("SS warning: budget higher then server capacity. Set to Cs."); |
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437 | #endif |
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438 | } |
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439 | if (lev->availCs <= 0) { |
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440 | /* we can be here if nostop model is used */ |
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441 | #ifdef DEBUG |
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442 | kern_printf("WARNING: SS has non positive capacity after replenish."); |
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443 | #endif |
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444 | /* if there isn't pending replenishment and server |
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445 | is not active we must refull somehow. |
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446 | Otherwise SS remains not active forever */ |
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447 | if(ssq_isempty(l) && lev->server_active == SS_SERVER_NOTACTIVE) { |
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448 | lev->availCs = lev->Cs; |
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449 | kern_printf("SS was full replenished due to irreversible non positive budget!!!\n"); |
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450 | kern_printf("You should review your time extimation for critical sections ;)\n"); |
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451 | } |
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452 | } |
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453 | } |
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454 | else { |
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455 | /* replenish queue is empty */ |
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456 | kern_printf("Replenish Timer fires but no Replenish Amount defined\n"); |
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38 | pj | 457 | SS_internal_status(l); |
14 | pj | 458 | kern_raise(XINVALID_SS_REPLENISH,exec_shadow); |
2 | pj | 459 | #ifdef DEBUG |
460 | exit(-1); |
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461 | #endif |
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462 | } |
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463 | |||
464 | if (lev->availCs > 0 && lev->activated == NIL) { |
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29 | pj | 465 | if (iq_query_first(&lev->wait) != NIL) { |
466 | lev->activated = iq_getfirst(&lev->wait); |
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2 | pj | 467 | /* if server is active, replenish time already set */ |
468 | if (lev->server_active == SS_SERVER_NOTACTIVE) { |
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469 | lev->server_active = SS_SERVER_ACTIVE; |
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470 | /* set replenish time */ |
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38 | pj | 471 | kern_gettime(&ty); |
2 | pj | 472 | ADDUSEC2TIMESPEC(lev->period, &ty); |
473 | TIMESPEC_ASSIGN(&lev->lastdline, &ty); |
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474 | #ifdef DEBUG |
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475 | kern_printf("RT:%d.%d ",ty.tv_sec,ty.tv_nsec); |
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476 | #endif |
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477 | kern_event_post(&ty, SS_replenish_timer, (void *) l); |
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478 | } |
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479 | SS_activation(lev); |
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480 | event_need_reschedule(); |
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481 | } |
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482 | } |
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483 | } |
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484 | |||
485 | static char *SS_status_to_a(WORD status) |
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486 | { |
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487 | if (status < MODULE_STATUS_BASE) |
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38 | pj | 488 | return "Unavailable"; //status_to_a(status); |
2 | pj | 489 | |
490 | switch (status) { |
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491 | case SS_WAIT : return "SS_Wait"; |
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492 | default : return "SS_Unknown"; |
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493 | } |
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494 | } |
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495 | |||
496 | |||
497 | /*-------------------------------------------------------------------*/ |
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498 | |||
499 | /*** Level functions ***/ |
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500 | |||
38 | pj | 501 | void SS_internal_status(LEVEL l) |
2 | pj | 502 | { |
503 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
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29 | pj | 504 | PID p = iq_query_first(&lev->wait); |
2 | pj | 505 | |
506 | kern_printf("On-line guarantee : %s\n", |
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507 | (lev->flags & SS_ENABLE_GUARANTEE_EDF || |
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508 | lev->flags & SS_ENABLE_GUARANTEE_RM )?"On":"Off"); |
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509 | |||
510 | kern_printf("Used Bandwidth : %u/%u\n",lev->U,MAX_BANDWIDTH); |
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511 | kern_printf("Period : %d\n",lev->period); |
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512 | kern_printf("Capacity : %d\n",lev->Cs); |
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513 | kern_printf("Avail capacity : %d\n",lev->availCs); |
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514 | kern_printf("Server is %sactive\n", |
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515 | (lev->server_active == SS_SERVER_NOTACTIVE ? "not ":"")); |
||
516 | kern_printf("Pending RAs : %d\n",lev->rcount); |
||
517 | |||
518 | if (lev->activated != NIL) |
||
519 | kern_printf("Activated: Pid: %d Name: %10s Dl: %ld.%ld Nact: %d Stat: %s\n", |
||
520 | lev->activated, |
||
521 | proc_table[lev->activated].name, |
||
29 | pj | 522 | iq_query_timespec(lev->activated,&lev->wait)->tv_sec, |
523 | iq_query_timespec(lev->activated,&lev->wait)->tv_nsec, |
||
2 | pj | 524 | lev->nact[lev->activated], |
525 | SS_status_to_a(proc_table[lev->activated].status)); |
||
526 | |||
527 | while (p != NIL) { |
||
528 | kern_printf("Pid: %d\tName: %10s\tStatus: %s\n", |
||
529 | p, |
||
530 | proc_table[p].name, |
||
531 | SS_status_to_a(proc_table[p].status)); |
||
29 | pj | 532 | p = iq_query_next(p, &lev->wait); |
2 | pj | 533 | } |
534 | } |
||
535 | |||
38 | pj | 536 | static PID SS_public_schedulerbackground(LEVEL l) |
2 | pj | 537 | { |
538 | /* the SS catch the background time to exec aperiodic activities */ |
||
539 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
540 | |||
541 | #ifdef DEBUG |
||
542 | kern_printf("SS_levschbg "); |
||
543 | #endif |
||
544 | |||
545 | lev->flags |= SS_BACKGROUND; |
||
546 | |||
547 | if (lev->flags & SS_BACKGROUND_BLOCK) |
||
548 | return NIL; |
||
549 | else |
||
29 | pj | 550 | return iq_query_first(&lev->wait); |
2 | pj | 551 | } |
552 | |||
553 | /* The on-line guarantee is enabled only if the appropriate flag is set... */ |
||
38 | pj | 554 | static int SS_public_guaranteeEDF(LEVEL l, bandwidth_t *freebandwidth) |
2 | pj | 555 | { |
556 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
557 | |||
558 | #ifdef DEBUG |
||
559 | kern_printf("SS_levguarEDF "); |
||
560 | #endif |
||
561 | |||
562 | if (*freebandwidth >= lev->U) { |
||
563 | *freebandwidth -= lev->U; |
||
564 | return 1; |
||
565 | } |
||
566 | else |
||
567 | return 0; |
||
568 | } |
||
569 | |||
38 | pj | 570 | static int SS_public_guaranteeRM(LEVEL l, bandwidth_t *freebandwidth) |
2 | pj | 571 | { |
572 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
573 | |||
574 | #ifdef DEBUG |
||
575 | kern_printf("SS_levguarRM "); |
||
576 | #endif |
||
577 | |||
578 | if (*freebandwidth > lev->U + RM_MINFREEBANDWIDTH) { |
||
579 | *freebandwidth -= lev->U; |
||
580 | return 1; |
||
581 | } |
||
582 | else |
||
583 | return 0; |
||
584 | } |
||
585 | |||
586 | /*-------------------------------------------------------------------*/ |
||
587 | |||
588 | /*** Task functions ***/ |
||
589 | |||
590 | |||
38 | pj | 591 | static int SS_public_create(LEVEL l, PID p, TASK_MODEL *m) |
2 | pj | 592 | { |
593 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
38 | pj | 594 | SOFT_TASK_MODEL *s; |
2 | pj | 595 | |
596 | #ifdef DEBUG |
||
597 | kern_printf("SS_taskcre "); |
||
598 | #endif |
||
599 | |||
38 | pj | 600 | if (m->pclass != SOFT_PCLASS) return -1; |
601 | if (m->level != 0 && m->level != l) return -1; |
||
602 | s = (SOFT_TASK_MODEL *)m; |
||
603 | if (s->periodicity != APERIODIC) return -1; |
||
604 | |||
605 | s = (SOFT_TASK_MODEL *)m; |
||
606 | |||
2 | pj | 607 | if (s->arrivals == SAVE_ARRIVALS) |
608 | lev->nact[p] = 0; |
||
609 | else |
||
610 | lev->nact[p] = -1; |
||
611 | |||
612 | return 0; /* OK, also if the task cannot be guaranteed */ |
||
613 | } |
||
614 | |||
38 | pj | 615 | static void SS_public_dispatch(LEVEL l, PID p, int nostop) |
2 | pj | 616 | { |
617 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
618 | struct timespec ty; |
||
619 | |||
620 | #ifdef DEBUG |
||
621 | kern_printf("SS_tdi "); |
||
622 | #endif |
||
623 | |||
624 | TIMESPEC_ASSIGN(&ty, &schedule_time); |
||
625 | /* set replenish time */ |
||
626 | if(!BACKGROUND_ON) { |
||
627 | if(lev->server_active == SS_SERVER_NOTACTIVE) { |
||
628 | lev->server_active = SS_SERVER_ACTIVE; |
||
629 | ADDUSEC2TIMESPEC(lev->period,&ty); |
||
630 | TIMESPEC_ASSIGN(&lev->lastdline, &ty); |
||
631 | #ifdef DEBUG |
||
632 | kern_printf("tdiPID:%d RT:%d.%d ",p,ty.tv_sec,ty.tv_nsec); |
||
633 | #endif |
||
634 | kern_event_post(&ty, SS_replenish_timer,(void *) l); |
||
635 | } |
||
636 | } |
||
637 | |||
638 | #ifdef DEBUG |
||
639 | if (nostop) kern_printf("NOSTOP!!! "); |
||
640 | #endif |
||
641 | |||
642 | /* there is at least one task ready inserted in an RM or similar level. |
||
643 | Note that we can't check the status because the scheduler sets it |
||
644 | to exe before calling task_dispatch. |
||
645 | We have to check lev->activated != p instead */ |
||
646 | if (lev->activated != p) { |
||
29 | pj | 647 | iq_extract(p, &lev->wait); |
2 | pj | 648 | #ifdef DEBUG |
649 | kern_printf("extr task:%d ",p); |
||
650 | #endif |
||
651 | } |
||
652 | else { |
||
653 | #ifdef DEBUG |
||
654 | if (nostop) kern_printf("(gd status=%d)",proc_table[p].status); |
||
655 | #endif |
||
656 | level_table[lev->scheduling_level]-> |
||
38 | pj | 657 | private_dispatch(lev->scheduling_level,p,nostop); |
2 | pj | 658 | } |
659 | |||
660 | /* set capacity timer */ |
||
661 | if (!nostop && !BACKGROUND_ON) { |
||
662 | TIMESPEC_ASSIGN(&ty, &schedule_time); |
||
663 | // kern_printf("ty:%d.%d ",ty.tv_sec,ty.tv_nsec); |
||
664 | ADDUSEC2TIMESPEC((lev->availCs<=0 ? 0:lev->availCs),&ty); |
||
665 | // kern_printf("avCs:%d ty:%d.%d ",lev->availCs,ty.tv_sec,ty.tv_nsec); |
||
666 | /* stop the task if budget ends */ |
||
667 | #ifdef DEBUG |
||
668 | kern_printf("PID:%d ST=%d.%d ",p,ty.tv_sec,ty.tv_nsec); |
||
669 | #endif |
||
670 | cap_timer = kern_event_post(&ty, SS_capacity_timer,(void *) l); |
||
671 | } |
||
672 | } |
||
673 | |||
38 | pj | 674 | static void SS_public_epilogue(LEVEL l, PID p) { |
2 | pj | 675 | |
676 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
677 | struct timespec ty; |
||
678 | int tx; |
||
679 | |||
680 | #ifdef DEBUG |
||
681 | kern_printf("SS_tep "); |
||
682 | #endif |
||
683 | |||
684 | /* update the server capacity */ |
||
685 | if (BACKGROUND_ON) |
||
686 | lev->flags &= ~SS_BACKGROUND; |
||
687 | else { |
||
688 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
||
689 | // kern_printf("ty:%d.%d ",ty.tv_sec,ty.tv_nsec); |
||
690 | tx = TIMESPEC2USEC(&ty); |
||
691 | lev->availCs -= tx; |
||
692 | // kern_printf("avCs:%d ty:%d.%d ",lev->availCs,ty.tv_sec,ty.tv_nsec); |
||
693 | lev->replenish_amount += tx; |
||
694 | #ifdef DEBUG |
||
695 | kern_printf("RA:%d ",lev->replenish_amount); |
||
696 | #endif |
||
697 | } |
||
698 | |||
699 | /* check if the server capacity is finished... */ |
||
700 | if (lev->availCs <= 0) { |
||
701 | /* The server slice has finished... do the task_end!!! |
||
702 | A first version of the module used the task_endcycle, but it was |
||
703 | not conceptually correct because the task didn't stop because it |
||
704 | finished all the work, but because the server didn't have budget! |
||
705 | So, if the task_endcycle is called, the task remain into the |
||
706 | master level, and we can't wake him up if, for example, another |
||
707 | task point the shadow to it!!! */ |
||
708 | |||
709 | /* set replenish amount */ |
||
710 | if(!(BACKGROUND_ON)) { |
||
711 | if(lev->server_active == SS_SERVER_ACTIVE) { |
||
712 | lev->server_active = SS_SERVER_NOTACTIVE; |
||
713 | if(ssq_inslast(l, lev->replenish_amount) == NIL) { |
||
714 | kern_printf("SS: no more space to post replenishment\n"); |
||
715 | kern_printf("You should recompile setting higher SS_MAX_REPLENISH into include/modules/ss.h\n"); |
||
38 | pj | 716 | SS_internal_status(l); |
14 | pj | 717 | kern_raise(XINVALID_SS_REPLENISH,exec_shadow); |
2 | pj | 718 | #ifdef DEBUG |
719 | exit(-1); |
||
720 | #endif |
||
721 | } |
||
722 | lev->replenish_amount = 0; |
||
723 | } |
||
724 | } |
||
725 | |||
726 | if (lev->activated == p) |
||
38 | pj | 727 | level_table[lev->scheduling_level]->private_extract(lev->scheduling_level,p); |
2 | pj | 728 | |
29 | pj | 729 | iq_insertfirst(p, &lev->wait); |
2 | pj | 730 | proc_table[p].status = SS_WAIT; |
731 | lev->activated = NIL; |
||
732 | } |
||
733 | else { |
||
734 | /* The task has been preempted. |
||
735 | It returns into the ready queue or to the |
||
38 | pj | 736 | wait queue by calling the private_epilogue... */ |
2 | pj | 737 | |
738 | if (lev->activated == p) { /* goes into ready queue */ |
||
739 | level_table[ lev->scheduling_level ]-> |
||
38 | pj | 740 | private_epilogue(lev->scheduling_level,p); |
2 | pj | 741 | } |
742 | else { /* goes into wait queue */ |
||
29 | pj | 743 | iq_insertfirst(p, &lev->wait); |
2 | pj | 744 | proc_table[p].status = SS_WAIT; |
745 | } |
||
746 | } |
||
747 | } |
||
748 | |||
657 | anton | 749 | static void SS_public_activate(LEVEL l, PID p, struct timespec *t) |
2 | pj | 750 | { |
751 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
752 | |||
753 | #ifdef DEBUG |
||
754 | kern_printf("SS_tacti "); |
||
755 | #endif |
||
756 | |||
757 | if (lev->activated == p || proc_table[p].status == SS_WAIT) { |
||
758 | if (lev->nact[p] != -1) lev->nact[p]++; |
||
759 | } |
||
760 | else if (proc_table[p].status == SLEEP) { |
||
761 | if (lev->activated == NIL && lev->availCs > 0) { |
||
762 | if(!BACKGROUND_ON) { |
||
763 | /* if server is active, replenish time already set */ |
||
764 | if (lev->server_active == SS_SERVER_NOTACTIVE) { |
||
765 | lev->server_active = SS_SERVER_ACTIVE; |
||
766 | /* set replenish time */ |
||
657 | anton | 767 | ADDUSEC2TIMESPEC(lev->period, t); |
768 | TIMESPEC_ASSIGN(&lev->lastdline, t); |
||
2 | pj | 769 | #ifdef DEBUG |
657 | anton | 770 | kern_printf("RT=%d.%d ",t->tv_sec,t->tv_nsec); |
2 | pj | 771 | #endif |
657 | anton | 772 | kern_event_post(t, SS_replenish_timer, (void *) l); |
2 | pj | 773 | } |
774 | } |
||
775 | lev->activated = p; |
||
776 | SS_activation(lev); |
||
777 | } |
||
778 | else { |
||
29 | pj | 779 | iq_insertlast(p, &lev->wait); |
2 | pj | 780 | proc_table[p].status = SS_WAIT; |
781 | } |
||
782 | } |
||
783 | else { |
||
784 | kern_printf("SS_REJ%d %d %d %d ", |
||
785 | p, |
||
786 | proc_table[p].status, |
||
787 | lev->activated, |
||
788 | lev->wait.first); |
||
789 | return; |
||
790 | } |
||
791 | } |
||
792 | |||
38 | pj | 793 | static void SS_public_unblock(LEVEL l, PID p) |
2 | pj | 794 | { |
795 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
796 | |||
797 | #ifdef DEBUG |
||
798 | kern_printf("SS_tins "); |
||
799 | #endif |
||
800 | lev->flags &= ~SS_BACKGROUND_BLOCK; |
||
801 | |||
802 | lev->activated = NIL; |
||
803 | |||
804 | /* when we reinsert the task into the system, the server capacity |
||
805 | is always 0 because nobody executes with the SS before... */ |
||
29 | pj | 806 | iq_insertfirst(p, &lev->wait); |
2 | pj | 807 | proc_table[p].status = SS_WAIT; |
808 | } |
||
809 | |||
38 | pj | 810 | static void SS_public_block(LEVEL l, PID p) |
2 | pj | 811 | { |
812 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
813 | |||
814 | #ifdef DEBUG |
||
815 | kern_printf("SS_textr "); |
||
816 | #endif |
||
817 | |||
818 | /* set replenish amount */ |
||
819 | if(!(BACKGROUND_ON)) { |
||
820 | SS_set_ra(l); |
||
821 | } |
||
822 | |||
823 | /* clear the server capacity */ |
||
824 | lev->availCs = 0; |
||
825 | |||
826 | lev->flags |= SS_BACKGROUND_BLOCK; |
||
827 | |||
828 | if (lev->activated == p) |
||
38 | pj | 829 | level_table[lev->scheduling_level]->private_extract(lev->scheduling_level,p); |
2 | pj | 830 | } |
831 | |||
38 | pj | 832 | static int SS_public_message(LEVEL l, PID p, void *m) |
2 | pj | 833 | { |
834 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
835 | struct timespec ty; |
||
836 | int tx; |
||
837 | |||
838 | #ifdef DEBUG |
||
839 | kern_printf("SS_tendcy "); |
||
840 | #endif |
||
841 | |||
842 | /* update the server capacity */ |
||
843 | if (BACKGROUND_ON) |
||
844 | lev->flags &= ~SS_BACKGROUND; |
||
845 | else { |
||
846 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
||
847 | tx = TIMESPEC2USEC(&ty); |
||
848 | lev->availCs -= tx; |
||
849 | lev->replenish_amount += tx; |
||
850 | #ifdef DEBUG |
||
851 | kern_printf("PID:%d RA=%d ",lev->replenish_amount); |
||
852 | #endif |
||
853 | } |
||
854 | |||
855 | if (lev->activated == p) |
||
38 | pj | 856 | level_table[lev->scheduling_level]->private_extract(lev->scheduling_level,p); |
2 | pj | 857 | else |
29 | pj | 858 | iq_extract(p, &lev->wait); |
2 | pj | 859 | |
860 | if (lev->nact[p] > 0) { |
||
861 | lev->nact[p]--; |
||
29 | pj | 862 | iq_insertlast(p, &lev->wait); |
2 | pj | 863 | proc_table[p].status = SS_WAIT; |
864 | } |
||
865 | else { |
||
866 | proc_table[p].status = SLEEP; |
||
867 | } |
||
868 | |||
29 | pj | 869 | lev->activated = iq_getfirst(&lev->wait); |
2 | pj | 870 | if (lev->activated != NIL) { |
871 | SS_activation(lev); |
||
872 | } |
||
873 | else { |
||
874 | /* No more task to schedule; set replenish amount */ |
||
875 | if(!(BACKGROUND_ON)) { |
||
876 | SS_set_ra(l); |
||
877 | } |
||
878 | } |
||
38 | pj | 879 | |
880 | jet_update_endcycle(); /* Update the Jet data... */ |
||
502 | giacomo | 881 | TRACER_LOGEVENT(FTrace_EVT_task_end_cycle,(unsigned short int)proc_table[p].context,(unsigned int)l); |
38 | pj | 882 | |
883 | return 0; |
||
2 | pj | 884 | } |
885 | |||
38 | pj | 886 | static void SS_public_end(LEVEL l, PID p) |
2 | pj | 887 | { |
888 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
889 | struct timespec ty; |
||
890 | int tx; |
||
891 | |||
892 | #ifdef DEBUG |
||
893 | kern_printf("SS_tend "); |
||
894 | #endif |
||
895 | |||
896 | /* update the server capacity */ |
||
897 | if (BACKGROUND_ON) |
||
898 | lev->flags &= ~SS_BACKGROUND; |
||
899 | else { |
||
900 | SUBTIMESPEC(&schedule_time, &cap_lasttime, &ty); |
||
901 | tx = TIMESPEC2USEC(&ty); |
||
902 | lev->availCs -= tx; |
||
903 | lev->replenish_amount += tx; |
||
904 | #ifdef DEBUG |
||
905 | kern_printf("PID:%d RA=%d ",p,lev->replenish_amount); |
||
906 | #endif |
||
907 | } |
||
908 | |||
909 | if (lev->activated == p) |
||
38 | pj | 910 | level_table[lev->scheduling_level]->private_extract(lev->scheduling_level,p); |
2 | pj | 911 | |
912 | proc_table[p].status = FREE; |
||
29 | pj | 913 | iq_insertfirst(p,&freedesc); |
2 | pj | 914 | |
29 | pj | 915 | lev->activated = iq_getfirst(&lev->wait); |
2 | pj | 916 | if (lev->activated != NIL) { |
917 | SS_activation(lev); |
||
918 | } |
||
919 | else { |
||
920 | if(!(BACKGROUND_ON)){ |
||
921 | /* No more task to schedule; set replenish amount */ |
||
922 | SS_set_ra(l); |
||
923 | } |
||
924 | } |
||
925 | } |
||
926 | |||
927 | /*-------------------------------------------------------------------*/ |
||
928 | |||
929 | /*** Registration functions ***/ |
||
930 | |||
931 | |||
932 | /*+ Registration function: |
||
933 | int flags the init flags ... see SS.h +*/ |
||
38 | pj | 934 | LEVEL SS_register_level(int flags, LEVEL master, int Cs, int per) |
2 | pj | 935 | { |
936 | LEVEL l; /* the level that we register */ |
||
937 | SS_level_des *lev; /* for readableness only */ |
||
938 | PID i; /* a counter */ |
||
939 | |||
940 | /* request an entry in the level_table */ |
||
38 | pj | 941 | l = level_alloc_descriptor(sizeof(SS_level_des)); |
2 | pj | 942 | |
385 | giacomo | 943 | printk("SS_register_level\n"); |
944 | |||
38 | pj | 945 | lev = (SS_level_des *)level_table[l]; |
2 | pj | 946 | |
947 | /* fill the standard descriptor */ |
||
948 | |||
949 | if (flags & SS_ENABLE_BACKGROUND) |
||
38 | pj | 950 | lev->l.public_scheduler = SS_public_schedulerbackground; |
2 | pj | 951 | |
952 | if (flags & SS_ENABLE_GUARANTEE_EDF) |
||
38 | pj | 953 | lev->l.public_guarantee = SS_public_guaranteeEDF; |
2 | pj | 954 | else if (flags & SS_ENABLE_GUARANTEE_RM) |
38 | pj | 955 | lev->l.public_guarantee = SS_public_guaranteeRM; |
2 | pj | 956 | else |
38 | pj | 957 | lev->l.public_guarantee = NULL; |
2 | pj | 958 | |
38 | pj | 959 | lev->l.public_create = SS_public_create; |
960 | lev->l.public_end = SS_public_end; |
||
961 | lev->l.public_dispatch = SS_public_dispatch; |
||
962 | lev->l.public_epilogue = SS_public_epilogue; |
||
963 | lev->l.public_activate = SS_public_activate; |
||
964 | lev->l.public_unblock = SS_public_unblock; |
||
965 | lev->l.public_block = SS_public_block; |
||
966 | lev->l.public_message = SS_public_message; |
||
2 | pj | 967 | |
968 | /* fill the SS descriptor part */ |
||
969 | |||
970 | for (i=0; i<MAX_PROC; i++) |
||
971 | lev->nact[i] = -1; |
||
972 | |||
973 | lev->Cs = Cs; |
||
974 | lev->availCs = Cs; |
||
975 | |||
976 | lev->period = per; |
||
977 | |||
29 | pj | 978 | iq_init(&lev->wait, &freedesc, 0); |
2 | pj | 979 | lev->activated = NIL; |
980 | |||
981 | lev->U = (MAX_BANDWIDTH / per) * Cs; |
||
982 | |||
983 | lev->scheduling_level = master; |
||
984 | |||
985 | lev->flags = flags & 0x07; |
||
986 | |||
987 | /* This is superfluos. I do it for robustness */ |
||
988 | for (i=0;i<SS_MAX_REPLENISH;lev->replenishment[i++]=0); |
||
989 | |||
990 | /* Initialize replenishment stuff */ |
||
991 | lev->rfirst=0; |
||
992 | lev->rlast=0; |
||
993 | lev->rcount=0; |
||
994 | lev->replenish_amount=0; |
||
995 | lev->server_active=SS_SERVER_NOTACTIVE; |
||
38 | pj | 996 | |
997 | return l; |
||
2 | pj | 998 | } |
999 | |||
1000 | bandwidth_t SS_usedbandwidth(LEVEL l) |
||
1001 | { |
||
1002 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
38 | pj | 1003 | |
1004 | return lev->U; |
||
2 | pj | 1005 | } |
1006 | |||
1007 | int SS_availCs(LEVEL l) { |
||
1008 | SS_level_des *lev = (SS_level_des *)(level_table[l]); |
||
38 | pj | 1009 | |
1010 | return lev->availCs; |
||
2 | pj | 1011 | } |